'use strict'; module.exports = function (math) { var util = require('../../util/index'), BigNumber = math.type.BigNumber, Complex = require('../../type/Complex'), collection = math.collection, isNumber = util.number.isNumber, isBoolean = util['boolean'].isBoolean, isComplex = Complex.isComplex, isCollection = collection.isCollection, bigArcCsc = util.bignumber.arcsin_arccsc; /** * Calculate the inverse cosecant of a value. * * For matrices, the function is evaluated element wise. * * Syntax: * * math.acsc(x) * * Examples: * * math.acsc(0.5); // returns Number 0.5235987755982989 * math.acsc(math.csc(1.5)); // returns Number ~1.5 * * math.acsc(2); // returns Complex 1.5707963267948966 -1.3169578969248166 i * * See also: * * csc, asin, asec * * @param {Number | Boolean | Complex | Array | Matrix | null} x Function input * @return {Number | Complex | Array | Matrix} The arc cosecant of x */ math.acsc = function acsc(x) { if (arguments.length != 1) { throw new math.error.ArgumentsError('acsc', arguments.length, 1); } if (isNumber(x)) { if (x <= -1 || x >= 1) { return Math.asin(1 / x); } return acsc(new Complex(x, 0)); } if (isComplex(x)) { if (x.re == 0 && x.im == 0) { return new Complex(halfPi, Infinity); } var den = x.re*x.re + x.im*x.im; x = (den != 0) ? new Complex( x.re = x.re / den, x.im = -x.im / den) : new Complex( (x.re != 0) ? (x.re / 0) : 0, (x.im != 0) ? -(x.im / 0) : 0); return math.asin(x); } if (isCollection(x)) { return collection.deepMap(x, acsc); } if (isBoolean(x) || x === null) { return (x) ? halfPi : new Complex(halfPi, Infinity); } if (x instanceof BigNumber) { return bigArcCsc(x, BigNumber, true); } throw new math.error.UnsupportedTypeError('acsc', math['typeof'](x)); }; var halfPi = 1.5707963267948966; };